Means for producing pictures by projected light.



A. D. BRIXEY.

MEANS FOR PRODUCING PICTURES BY PROJECTED LIGHT.

APPucATloN man sEPT.3o.191a.

Patent-ed Nov. 14, 1916.

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AUSTIN D. IBRIXEY, OF NEW YORK, N: Y

'MEANS ron. PBonucING PICTURES BY raoJEoT'En LIGHT.

Specification of LettersiPatent. A Patented NOV, 14, 1916 Application led September 30, 1913. Serial No. 792,570.

To all whom t may concern y Be it known that I, AUSTIN D. BRIXEY, a

citizen of the United States, residing at New York, in the county of New York and State of New York, have invented certain new and useful Improvements in Means for Producing Pictures by Projected Light, of which the following is a full, clear, and exact specification. n

This invention relates to means whereby a picture, image or design may be reproduced Yat a distance through the instrumentality of projected light. It is oft reat value in relation to the reproduction of colored pictures (red, green, blue, etc.) but is not limited thereto. f

With magic lanterns, moving picture projectors, etc., an intense ight is projected through a,;'slide or film bearing the picture or pictures. Also, the projected light for forming a picture at a distance may be projected by refiection of an intenselight from the picture ,to be reproduced.

This projected light is directed against a screen from which it is reiected' to the eye of the observer. The screen is usually white and opaque, but translucent screens, such as paper, cloth, ground glass, &c., may be used to reflect the projected light and produce the pictures. Also, pictures have been produced by rays reflected from a screen having al surface of a metallic nature. mentioned reiiector returns the rays more perfectly than those before mentioned. The surface, however, is not white, but silvery.

All ofthe foregoing methods, which may be termed reflecting methods as the projected light is refiected back to the efye of the observer which is located upon the same side of the reflecting screen as the projector, are objectionable for the reason that with the .character of screen as heretofore used the picture is dimmed, if not entirely destroyed, by reason of the fact that fugitive light is reflected from the surface so that such apparatus requires that the pictures shall be shownin an absolutely dark room. This is because the white portions are differentiatedby reason of the varying intensity ofthe light on the different parts. With a white screen', such as an lopaque white screen or a translucent screen as referred to, the screen being whlte any apparently 'dark or black 4portions are This last j produced by comparison with more intense light upon other portions. Any foreign rays, therefore, interfere with the comparative intensities of the projected light and vary in their effect from rendering the picture somewhat dim where the foreign light is not intense to rendern the picture sub- Stantially invisible in daylight. In the case of the metallic surface reflector referred to, the white parts of the picture depend upon the whiteness and intensity of the projected light to produce the white parts of the picture as the surface itself is not really white. Foreign light rays, therefore, interfere with the comparative intensities of the projected light to the dimming or destroying of the picture.

Pictures have also been rendered visible at a distance by means of projected light by the use of translucent screens which are viewed from the opposite side of the screen from the projector. It will be apparent that by this method the projected rays are not reflected as in the reflecting methods before referred to, but proceed on a straight line to the eye. The picture is Xed at the sur-1 face of the translucent material by reason of the diffusion and refraction ofthe rays of light by the translucent material. In contradistinction to the refiectionmethodsof picture producing, as above referred to, this method by which the screen is placed between the projector and the observer may be termed the transmission method, for while the light is reflected from the picture screenin the refiection methods it is transmitted through the screen by the transmission method. The

common form of translucent screen used in the transmission Vmethod is of ground glass. The transmission method, as heretofore employed, also has the objection that its plctures are liable to be dimmed or destroyed by foreign lightrays which are reflected from the surface of the screen to the eye of the observer, or which may be transmitted through the screen. This interferes with employed, also has this disadvantage that the picture thereon is only perfect and most brilliant when viewed from a place directly in front. The pictures lose their definition and brilliancy rapidly as the eye of the observer moves to one side and the angle which the line of sight makes with the picture plane decreases.

With both the transmission and reflection methods, as heretofore employed, it is ap? parent to the observer that the picture is produced by a brilliant light. This belng due to the fact that the picture is lighted at all points and intensely lighted at some points to bring out the contrasts of light and shade. This intense brilliancy which is necessary ,to definiteness of the picture is f extremely trying to the eyes especially in moving pictures. This is in marked contrast to the ordinary opaque picture, such, for instance, as an oil painting, which produces a definite picture with ease to the eyes and without extreme intensity of light. This ordinary picture'is an opaque surface of reflection and subtraction which produces the "white effect upon the eyes/by reflecting all of the light and a black effect when all the light has been absorbed, while/:intense and gradual colors are produced by the absorption of the other colors of the spectrum.

vIt is the object of the present invention to provide means for producing pictures from projected light which shall be free 'l from the disadvantages as noted above with reference to the means heretofore employed. It is an ancillary' object of the invention to produce pictures from projected light' `which shall have the opaque effect of ordinary pictures of reflection and subtraction;

A further ancillary object of the invention is to provide means whereby projected ylight pictures may be exhibited in the light/ as well as in the dark. j y A further ancillary object of the invention 1s to provide a picture producing` means,

wherein the picture shall be of substal'ltiallyfl the same definition. and brilliancy when A viewed from any angle. I Other objects of the inventions will appear hereinafter. y

The invention' can be best described and its application illustrated in connection with the' accompanying Qdrawings, of ,which- -Figure I is a view showing the pictureA producing devlce in section, the projectorand the eye of the observer bein conventlonally shown; and Fig. 2 is a section of a modified form of picture producing device. Referring to the drawings and first to 1 Fig. 1, the eye of the observer is indicated at A, the projector at B, and the picture visualizing device at C. The projector may be of any suitable or well known construction. Thedevicey C comprises av plate of ordinary glass 1, as indicated, upon one side' of which is' spread va suitable transparent pitchy coating 2. Over the adhesive coating f- 2, and securedl to the glass plate l thereby 1s i a coating 3' formed of colored partlclesof starch (which may be ordinary potato starch), or other suitable pulverul'ent and transparent materials. These particles are colored by means of colors, also transparent, in red, green, and blue. These particles are mixed together as intimately as possible in the state of a dry powder and then applied to' the glass. The particles should ordinarily be from l/l200 to 1/.2000f of an inch in diameter and mixed in the proportion of four green to three red to two blue. This combination'of transparent colored grains whenapplied to the glass has been found in practice to properly transmit thel light and does not communicate to the surface Lany appreciable coloration. This result may be also obtained ,and a satisfactory coating secured by mixing together pulverulent and transparent particles of other grains than red, greenandblue, as for instance, red, yellow, and blue particles, or orange, green and violet, or even, in any number of colors such that when these different groups .of colors are mixed and applied to the plate as described they do not -give any appreciable coloration thereto.

The mixture of powdered colored particles is so applied to the glass that the grains remain fixed thereon and touch each other,

ybut without being superposed, so that the ing maybe dusted Awith a very fine black.

powder of a suitable' substance, such as charcoal, so that 4any remalning spaces not filled by the lcolored particlesare rendered opaque. The whole particle coat ""is then covered with a'coating of protecting transparent varnish. This varnish as wellv as have an index 'of refraction asnear as possible to that of the colored particles iniorder through the particle coating.

' the :transparent adhesive matter 2, should Upon the varnished coating just Vdescribed 'n is a` developed sensitive panchromatic coating 4, 'but this coating is a refinement and may be omitted as will be h/ercinafter 'rel ferred to. Over the-coatings referred to is' placedv a translucent white 'screen .5, which may be secured in position by clamping or in any other suitable manner. This transthat the light may not be diffused in passingf' lucent screen may be of cloth, paper, ground glass, or other suitable material.

rIhe device treated with the transparent colored starch particles as descriled is substantially non-reflecting, that is substantially all light coming from the oposite side of the device from the projector, and which would otherwise be reflected to the eye of the observer, is absorbed so that unless these particles are lighted from rays from the projector side the device will appear sub-y stantially black or without lightI to the observer. Since these particles are of a transparent nature, however, light rays from the projector will be made visible at appropriate particles of the screen, according to their colors. Assuming that the particles are colored red, blue and. green, a white ray from the projector will have its red portions made visible at the red particles, its green portion at the green particles, and its blue portion at the blue particles, the red rays not being transmissible through the green or blue particles and so on with the other colors, the constituent colored portions of the white rays being transmitted by the particles of different color as described.

`These particles are so minute and so intimately associated together that the separation of the colors is not apparent and they blend together so that the portion of the screen surface under consideration will ap,

pear white to the observer. Blue rays from the projector will be blocked o' by the red andA green particles, but will render the blue particles luminous and so with the other colored partifes andv their corresponding colors. 'y j As before stated, the coating et maybe omitted. r[he device C will then perform its functions in producing ,the picture by transmitted light substantially as well as bythe use of this coating. I have found that where this coating is absent the white portions of the picture upon the screen arel not exactly a true white, but have a slightly grayish tinge. In order to produce a perfect white, a plate comprising the glass plate and the starch and charcoal particle coating thereon and with the sensitized coating over that, as shown in the device C, may be treated by taking a picture of a perfectly white screen in the manner of taking an ordinary photograph. The exposure being made with the plate so placed that the particle screen coating is interposed between the sensitive coating andthe object glass. After exposure, development and fixing, the silver reduced in the sensitive coating will mask to dilierent degrees the colored elements of the screen coating according to the s colors of the object photographed, which in this case is white, ,and the result will be that with the exposed sensitized coating debeof veloped the transmitted light will colors complementary to those ofthe light which they have received during .the exposure.

To restore the normal orderthe negative may be inverted by any of the known methods, such as treatment with the perlmanganate or bichromate of potash acidulated and so forth, followed by a second development in a lwell known manner. This plate, which isa positive, is then combined with the translucent screen to form the picture visualizing device C when the white portions will be a perfect white. As before stated, however, this is merely a refinement and the device C is near enough to true color for most practical purposes without the use of the developed sensitized coating. The glass plate l may also be omitted, the particle coat 2 being secured to the translucent screen 5. l

With the observers eye, the picture producing device C and the projector B arranged as shown in Fig. l, and with no light proceeding from the projector, the observer will note a dark blank space on the picture producing device, which is substantially non-reflecting. If now the light is projected from the picture to' be'reproduced, thelra-ys emanating lfrom this picture and striking the device C will be White or black or of intermediate shades and of dierent colors according to the dilferent portions of the picture from which they are projected. These projected rays will cause the device C toturn different colors and shades in different parts according to the different parts of the picture to be reproduced and from which the light is projected. In other words, the blank dark screen is changed .from its color as appearing to the observer by reflected light (or the lack of it) to those colors and shades in the various parts .which produce a clear and opaque picture in its, true shades and coloring This picture which appears to the observer upon the surface of the mixed colored particles on the side adjacent to the glass l, is a perfect replica, as has been noted, of the original picture and I have in`practice,therefore, referred to such a picture as a repliture, which I define as a picture produced by light on a surface having the appearance of an ordinary subtracted reected picture. The phenomenon whereby such a picture is brought about I have referred to as repliturance, which I deiine as the change in colorv of a surface or substance by reflected light to a dierentcolor by transmitted light with an opaque effect and the picture visualizing device Iwhereby such repliture and repliturance are brought about I have characterized a repliturant, meaning a surface or substance appearing to have a different color by reflected light from what it does by transmitted light and which canbe changed to any color by appropriate transmitted light, the surface or substance having th'e appearance of being opaque. j f The picture ,producedy by the apparatus as described, owing t'o the effect of no light being transmitted through it except that actually projected from the picture, is relieved `of the intense brilliancy heretofore noticed in projected pictures, clearly indicating that they are produced by intense light so that the effect is very pleasing and not tiresome to the eyes. The pictures can be exhibited in light, even in broad daylight, as the picture surface is substantially non-refiecting so that reflected foreign light does not interfere with the picture. -Also, the definiteness and brilliancy of the picture is maintained even When observed from one side 'atrWhich the line of vision makes a very small angle With the picture plane. The reason for this, as I understand it, being that each of the colored particles becomes a center of luminosity by reason of the light.

from the picture, Which is projected upon it, and is, therefore, ofthe same intensity from Whatever angle viewed. Also, this luminous point is fixe n position by reason of the illuminated particle being fixed in position and the light therefrom confined against diffusion through the surface and adjacent particles which do not transmit the particular character of light.

Referring noW to Fig. 2, A is the eye of the observer, B represents the projector,

and C is the picture visualizing means. In

this case, however, the 'picture visualizing means comprises a plece of platimzed glass 5 and a White translucent screen 6, which emay be of ground glass or other suitable l translucent material. The platinized glass may be formed as fol# lows: a concentrated solution of platinum is brought to the state of crystallizable chlorid upon Which is pouredessential oil of lavender. A liquor is formed in Which the platinuin is held in suspension, and Which is placed upon the glassin very thin layers by l means of a pencil. Especial care must be taken to avoid dust Which is very detrimental to an operation of 4this kind. The glass having been thus coated is put into a I drying room andv then into a muflleof refractoryA earth or of cast iron. rlhe muile is hermetically sealed and raised to a red heat. After cooling the glass` is taken out.v The surface may then be made very bright by rubbing with a cloth andv Spanish White. The platinized glass is readily transparent mentcf apparatus, as shown, produces a repliturant effect as before referredto When light is projected from the picture to be'reproduced through the device C to the .65 eye of the observer. The platinized face of `veloped after exposure to a White surface Vthrough the particle screen, .the negative beto transmitted light and With the arrangethe glass should be next the translucent substance.

What I have 'characterized' as replitu-l rance herein is easily distinguished from the effect produced by a regular transparency as it "does I'ot give the impression of being produced by light, but' rather that one is 'observing an ordinary picture hanging upon the wall or, in other words, a picture of reflection and subtraction.

While the invention has been illustrated in4 what is considered its best applications it may be embodied in other structures Without departing from its spirit and is not, therefore, limited to the structure shown in the drawings. Y I

Having thus described my invention, I declare thatwhat I claim as new and desire ,to secure by Letters Patent is 1. The combination with a projector for g5 projecting light from a picture to be reproduced, of a translucent light diffusing screen for receiving the projected rays, and a reflection-reducing screen or coating of intermixed particles of'different colors for trans- '90 mitting the projected light from the translucent screen to thegobservers eye.

2. The combination With a projector for projecting light from a picture to be reproduced, of means for visualizing the picture 9g, projected comprising a translucent light diffusing screen,a coating or screen of inter` mixed transparent particles of different colors, and a developed sentized coating, de-

ing then reversed.

3. ,The combination With a projector for projecting light from a picture to be reproduced, means for Visualizing the` picture projected, comprising a't translucent light diffusing screen and a reflection-reducing light transmitting screen having minute areas of different colors intermixed.

4. A.. means for producing a picture from projected lig-ht comprising a translucent light dilfusing screen,a coating or screen of intermixed transparent particles of diferent colors, and -a developed sensitizedcoating,

developed after exposure to a White surface through the particle screen, the negative being then reversed.

5. The combination with asource of light, of means for receiving and, transmitting light from said source to the eye of the observer, said ,means comprising a translucent light diffusing screen, a coating or screen of intermixed transparent particles of different colors and a developed sensitized coating, developed after exposure to a White surface through the particlescreen, the negative being then reversed.

6. A means for receiving and transmitting light from a source of light to the eye of an observer, comprising a translucent light U9 diiusing screen and a reflection-reducing screen of intermxed transparent'particles of screen having minute areas of different different colors. 10 colors intermiXed. In testimony whereof I aHx my signature,

7. A means for receiving light from a in presence oftwo Witnesses. 6 source of light and transmitting the same AUSTIN D. BRIXEY.

from said source to the eye of the observer, Witnesses: comprising a translucent light diffusing THOMAS Howr.,

screen and a reflection-reducing coating or GEO. N. KERK. 

